Article of footwear

ABSTRACT

A method of making a sole for an article of footwear is disclosed. The method includes steps of attaching a double sided acrylic adhesive film to a composite plate. The composite plate is then attached to an outer member of the article of footwear using the acrylic adhesive film.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No. 14/269,494, filed May 5, 2014, which is a continuation of U.S. patent application Ser. No. 13/647,760, filed Oct. 9, 2012, issued Jun. 24, 2014, as U.S. Pat. No. 8,756,831, which is a divisional of U.S. patent application Ser. No. 11/853,653, filed Sep. 11, 2007, issued Nov. 6, 2012 as U.S. Pat. No. 8,302,233, all of which are herein incorporated by reference in their entirety.

BACKGROUND 1. Field

The present invention relates generally to footwear and in particular to a method of making an article of footwear.

2. Description of Related Art

Methods of making soles have been previously proposed. Brewer et al. (U.S. Patent Publication Number 2007/0101617) teaches a footwear sole assembly having a spring mechanism. The Brewer design includes an upper plate made of TPU and a lower plate made of a reinforced material such as a carbon fiber or KEVLAR, for example. Brewer teaches that the upper plate and lower plate may be attached by any of various methods, such as, adhesive, heat bonding, ultrasonic welding or mechanical connection.

McLinden (U.S. Patent Publication Number 2006/0277797) teaches an absorbent footwear liner. McLinden teaches a liner comprising an upper absorbent layer and a lower layer comprising an adhesive material. teaches that the lower layer comprises a double-sided adhesive film such as double-faced acrylic pressure sensitive adhesive tape with release liner. McLinden does not teach the use of the adhesive with a carbon fiber plate or any substantially rigid material for a portion of a sole. Instead, the adhesive is used to attach the footwear liner to the article of footwear, at the sole, for example.

SUMMARY

A method of making an article of footwear and an apparatus are disclosed. In one aspect, the invention provides a method of making a sole for an article of footwear, comprising the steps of: applying a first side of an adhesive film to a bottom portion of a composite plate; associating a second side of the adhesive film with an inner portion of an outer member; and thereby fixedly attaching the composite plate to the outer member.

In another aspect, the adhesive film includes a protective layer.

In another aspect, the step of associating the adhesive film with the inner portion of the outer member further comprises the step of removing the protective layer after the adhesive film has been applied to the bottom portion of the composite plate.

In another aspect, a first adhesive film is applied to a top portion of the composite plate and a second adhesive film is applied to the bottom portion of the composite plate.

In another aspect, the first adhesive film is associated with a lower portion of a midsole and the second adhesive film is associated with the inner portion of the outer member.

In another aspect, the outer member is substantially transparent.

In another aspect, an indicia is applied to the inner portion of the outer member.

In another aspect, the indicia is visible through an outer portion of the outer member.

In another aspect, the indicia is applied to a side wall portion of the outer member.

In another aspect, the invention provides a method of making a sole for an article of footwear, comprising the steps of: applying an adhesive film to a top portion of a composite plate; associating the adhesive film with a lower portion of a midsole; applying the adhesive film to the lower portion; and thereby fixedly attaching the composite plate to the midsole.

In another aspect, the sole includes an outer member.

In another aspect, a first adhesive film is applied to a top portion of a composite plate and a second adhesive film is applied to a bottom portion of a composite plate.

In another aspect, the composite plate is fixedly attached to the outer member via the second adhesive film and the composite plate is fixedly attached to the midsole via the first adhesive film.

In another aspect, an indicia is applied to an inner portion of the outer member and wherein the indicia is visible through an outer portion of the outer member that is disposed opposite of the inner portion.

In another aspect, the invention provides an article of footwear, comprising: a sole including an outer member and a composite plate; an adhesive film disposed between the outer member and the composite plate including a first side and a second side; and where the first side of the adhesive film is fixedly attached to a bottom portion of the composite plate and where the second side of the adhesive film is fixedly attached to an inner portion of the outer member.

In another aspect, the sole includes a midsole.

In another aspect, a first adhesive film is attached to a top portion of the composite plate and a second adhesive film is attached to the bottom portion of the composite plate.

In another aspect, the first adhesive film is associated with a midsole.

In another aspect, the second adhesive film is associated with the outer member.

In another aspect, an indicia is disposed on the inner portion of the outer member and where the indicia is visible through an outer portion of the outer member.

Other systems, methods, features and advantages of the invention will be, or will become apparent to one with skill in the art upon examination of the following figures and detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the invention, and be protected by the following claims.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention can be better understood with reference to the following drawings and description. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention. Moreover, in the figures, like reference numerals designate corresponding parts throughout the different views.

FIG. 1 is an exploded view of a preferred embodiment of an article of footwear;

FIG. 2 is a schematic view of an embodiment of a step of cleaning a composite plate according to the prior art;

FIG. 3 is a schematic view of an embodiment of a step of applying a primer to a composite plate according to the prior art;

FIG. 4 is a schematic view of an embodiment of a step of applying cement to a composite plate according to the prior art;

FIG. 5 is a schematic view of an embodiment of a step of attaching a composite plate to a sole according to the prior art;

FIG. 6 is a schematic view of a preferred embodiment of a step of associating a composite plate with one or more adhesive films;

FIG. 7 is a schematic view of a preferred embodiment of a step of associating each adhesive film with a protective layer;

FIG. 8 is a schematic view of a preferred embodiment of a step of bonding adhesive films to a composite sheet using a press;

FIG. 9 is a schematic view of a preferred embodiment of a step of cutting a laminate;

FIG. 10 is a schematic view of a preferred embodiment of a step of reforming a composite plate into a contour shape;

FIG. 11 is a schematic view of a preferred embodiment of a step of peeling a protective layer away from a laminate;

FIG. 12 is a cross sectional view of a preferred embodiment of a step of associating a composite plate with an injection mold;

FIG. 13 is a schematic view of a preferred embodiment of a step of associating a composite plate with an outer member and a midsole;

FIG. 14 is a schematic view of a preferred embodiment of an assembled sole;

FIG. 15 is a cross sectional view of a preferred embodiment of an assembled sole;

FIG. 16 is a schematic view of a preferred embodiment of multiple indicia applied to an inner portion of an outer member;

FIG. 17 is a schematic view of a preferred embodiment of multiple indicia visible through an outer portion of an outer member; and

FIG. 18 is a schematic side view of a preferred embodiment of an assembled article of footwear.

DETAILED DESCRIPTION

FIG. 1 is an isometric exploded view of a preferred embodiment of article of footwear 100. In a preferred embodiment, article of footwear 100 may be a basketball shoe. For clarity, the following detailed description discusses a preferred embodiment; however, it should be kept in mind that the present invention could also take the form of any other kind of footwear including, for example, soccer shoes, running shoes, football cleats, boots, as well as other kinds of footwear. As shown throughout the figures, article of footwear 100 is intended to be used with a left foot, however it should be understood that the following discussion may equally apply to a mirror image of article of footwear 100 that is intended for use with a right foot.

Article of footwear 100 may include upper 102. The current embodiment includes a preferred design for upper 102. In other embodiments, the design of upper 102 may be modified. Generally, any design for upper 102 may be used.

Article of footwear 100 may include a fastening system of some kind that is configured to adjustably tighten upper 102 around a foot. In some embodiments, article of footwear 100 includes lacing system 101. In other embodiments, article of footwear 100 may include a different kind of fastening system. Examples of other types of fastening systems include, but are not limited to zippers, straps, buttons, as well as other types of fasteners.

In some embodiments, upper 102 may be associated with sole 103. In some cases, sole 103 could include midsole 104 that is configured to provide support for a foot. In other cases, sole 103 could include outer member 108 that is configured to provide durability and protect the foot from the ground. In still other cases, sole 103 could include an insole in order to provide padding between the foot and midsole 104 or outer member 108. In a preferred embodiment, sole 103 includes both midsole 104 and outer member 108. With this preferred arrangement, sole 103 may provide increased support for the foot during walking, running or various athletic activities.

In some embodiments, midsole 104 may be disposed between upper 104 and outer member 108. In this embodiment, upper side 118 of midsole 104 is generally flat. In some embodiments, lower side 119 of midsole 104 may include front raised portions 131 and rear raised portion 133. In a preferred embodiment, raised portions 131 and 133 may extend below lower side 119.

As previously discussed, sole 103 includes outer member 108. In some embodiments, outer member 108 may include raised side walls 115. With this arrangement, sole 103 is configured as a wrap-around sole. Additionally, in some embodiments, outer member 108 may include forefoot holes 111 that are configured to receive front raised portions 131. In some cases, outer member 108 may also include rear hole 113 that is configured to receive rear raised portion 133. With this configuration, portions 131 and 133 of midsole 104 may be disposed below outer member 108 following the assembly of sole 103. This preferred arrangement may help with shock resistance.

In some embodiments, outer member 108 may also include extended portions 107. In the current embodiment, extended portions 107 are fin-like in shape. In some cases, extended portions 107 may be disposed at forefoot region 114. In a preferred embodiment, extended portions 107 may be configured to engage an inner surface of upper 102. Using this configuration, forward portion 121 of upper 102 may be structurally reinforced and may resist bending. In another embodiment, extended portions 107 could be used in conjunction with a heel counter to provide added support for the heel.

Article of footwear 100 may include provisions for reinforcing outer member 108. In some embodiments, outer member 108 may be associated with composite plate 106. The term “composite plate” may refer to any component used for reinforcing a sole that is both lightweight and structurally rigid in at least one dimension of the sole.

Each of the components discussed here, including upper 102, midsole 104, composite plate 106 and outer member 108, may be constructed using materials known in the art. Upper 102 may be made from any material that is suitable for use as an upper. Examples of suitable materials include, but are not limited to, nylon, natural leather, synthetic leather, natural rubber, or synthetic rubber, as well as other materials. In a preferred embodiment, upper 102 may be made of synthetic leather.

In some embodiments, midsole 104 may be made of a deformable material. In some cases, midsole 104 may be made of a soft foam material configured to deflect in the vertical direction. In other cases, midsole 104 may be made of a hard foam material configured to provide additional support to the foot. Examples of other suitable materials for midsole 104 include, but are not limited to, EVA foam, elastomers, TPU, phylon, plastics as well as other substantially deforming materials.

Generally, outer member 108 may be made from any suitable outer-sole material. Examples of suitable materials include, but are not limited to, elastomers, siloxanes, natural rubber, other synthetic rubbers, aluminum, steel, natural leather, synthetic leather, or plastics. In this preferred embodiment, outer member 108 is made of a durable plastic.

In some embodiments, composite plate 106 may be a carbon fiber composite plate. In some cases, composite plate 106 may comprise pre-peg woven sheets of carbon fibers. In other cases, composite plate 106 may comprise thermoplastic materials as well. In this preferred embodiment, composite plate 106 may be a carbon fiber composite plate comprising stacked layers of thermoplastic urethane and pre-peg woven sheets of carbon fibers.

Preferably, composite plate 106 is configured to attach to inner portion 110 of outer member 108. In some embodiments, composite plate 106 is configured to attach to inner portion 110 at arch region 112. In other embodiments, composite plate 106 may attach to inner portion 110 at other regions, including forefoot region 114 and heel region 116. In an alternative embodiment, composite plate 106 may be a full length composite plate, configured to cover regions 112, 114 and 116 simultaneously. Examples of full length composite plates may be found in U.S. Pat. No. 7,832,117, issued Nov. 16, 2010 (U.S. application Ser. No. 11/458,044, filed Jul. 17, 2006), the entirety of which is hereby incorporated by reference.

Preferably, once composite plate 106 has been attached to outer member 108, sole 103 may be assembled. At this point, midsole 104 may be attached to outer member 108 using an adhesive of some kind. Using this configuration, composite plate 106 may be disposed between midsole 104 and outer member 108. Following this, sole 103 may be attached to upper 102 at upper side 118 of midsole 104.

Referring to FIGS. 2-5, previous methods for attaching a composite plate to one or more components of a sole have used a complex, costly and environmentally destructive multi-step process. During a first step, as seen in FIG. 2, solvent based cleaner 202 is applied to composite plate 200 to chemically clean composite plate 200. In some cases, a Methyl Ethyl Keytone (MEK) solvent based cleaner is used. During a second step, seen in FIG. 3, primer layer 302 is added to composite plate 200 to prepare surface 304 for an adhesive. During a third step, shown in FIG. 4, cement layer 402 is applied to composite plate 200. At this point, as shown in FIG. 5, cement layer 402 is used to bond the composite plate 200 to sole 500. In some cases, sole 500 may include recessed portion 502 configured to receive composite plate 200.

As previously mentioned, this traditional process for attaching a composite plate to a sole is time consuming and costly. Preferably, a method for attaching a composite plate to a sole includes provisions for using environmentally friendly materials as well as provisions for minimizing the number of steps involved in the process to improve efficiency. In a preferred embodiment, a double sided acrylic adhesive film may be used to attach a composite plate to a component of a sole in order to simplify the attachment process and substantially reduce costs of the attachment process.

FIGS. 6-15 illustrate a preferred embodiment of a method for attaching a composite plate to one or more components of a sole. These steps are preferably performed at the time of manufacturing an article of footwear. It should be understood that some of the following steps are optional. In some cases, a composite plate may be associated with an outer member. In other cases, a composite plate may be associated with a midsole. In a preferred embodiment, a composite plate may be associated with a sole comprising an outer member and a midsole. Furthermore, the following steps are illustrated with respect to a particular embodiment of a composite plate, however it should be understood that in other embodiments a similar process could be used to attach different types of composite plates to the outer member, midsole or another component of the sole.

FIG. 6 is intended to illustrate a preferred embodiment of a first step in the process for attaching a composite plate to one or more components of a sole. In some cases, prior to forming a composite plate, a composite material may be manufactured in the form of a composite sheet. The term “composite sheet”, as used throughout this detailed description and in the claims, refers to any composite material that can be cut or otherwise manipulated to create a composite plate. For example, a composite sheet could comprise a sheet-like layer of carbon fibers that may be cut into a carbon fiber plate at a later time.

During this first step, a composite sheet may be associated with one or more adhesive films. In some cases, an adhesive film may be applied to a top portion of the composite sheet. In other cases, an adhesive film may be applied to a bottom portion of the composite sheet. In a preferred embodiment, adhesive films may be applied to both portions of the composite sheet.

Generally, any type of adhesive film may be used. In some embodiments, a double sided adhesive film may be used. In other embodiments, an acrylic based adhesive film may be used. In a preferred embodiment, a double sided acrylic based adhesive film may be used.

In this embodiment, composite sheet 602 is associated with first adhesive film 604 at top portion 606. In particular, first side 605 of first adhesive film 604 is applied to top portion 606. Likewise, composite sheet 602 is associated with second adhesive film 608 at bottom portion 610. In particular, first side 609 of second adhesive film 608 is applied to bottom portion 610.

Although the current embodiment includes two adhesive films, in other embodiments, a different number of adhesive films could be used. In some cases, multiple adhesive films could be applied to the top portion and the bottom portion of the composite sheet. These adhesive films could overlap, or could be non-overlapping. In still other embodiments, one or more adhesive films could be applied to the outer edges of the composite sheet.

During a second step in this process, seen in FIG. 7, each adhesive film may be further associated with a protective layer. In some embodiments, the protective layers could be layers of plastic. In some cases, the protective layers could be layers of plastic with low coefficients of friction. In a preferred embodiment, the protective layers are layers of Teflon, which has an extremely low coefficient of friction. This preferred arrangement helps to prevent the protective layers from sticking to the adhesive films, respectively, so that the protective layers may be removed from the adhesive films at a later time.

In this embodiment, following the application of adhesive films 604 and 608 to composite sheet 602, first protective layer 702 may be associated with first adhesive film 604. Also, second protective layer 704 may be associated with second adhesive film 608. Using this arrangement, protective layers 702 and 704 may prevent adhesive films 604 and 608 from sticking to other objects during the manufacturing process. Furthermore, protective layers 702 and 704 may protect adhesive films 604 and 608 from collecting dust and debris that may reduce the bonding ability, or the stickiness, of adhesive films 604 and 608.

Generally, composite sheet 602, first adhesive film 604, second adhesive film 608, first protective layer 702 and second protective layer 704 may comprise laminate 720. It should be understood that the thicknesses of adhesive films 604 and 608 as well as the thicknesses of protective layers 702 and 704 are exaggerated in this embodiment for purposes of clarity. In some embodiments, adhesive films 604 and 608 and protective layers 702 and 704 may not be visible once they have been applied to composite sheet 602.

Preferably, adhesive films 604 and 608 may be bonded to composite sheet 602. In some cases, this bonding may be achieved by using pressure. In other cases, this bonding may be achieved by using heat. In a preferred embodiment, this bonding may be achieved by applying both pressure and heat.

Referring to FIG. 8, during a third step, adhesive films 604 and 608 may be bonded to composite sheet 602 using press 802. Preferably, press 802 is configured to apply pressure to laminate 720 at first side 810 and second side 812. Additionally, in this preferred embodiment, heat may be applied to laminate 720 using industrial heat gun 814. In some cases, industrial heat gun 814 may be used to heat press 802 while laminate 720 is disposed within press 802. In other cases, industrial heat gun 814 may be applied to laminate 720 before or after laminate 720 is placed within press 802. Using this arrangement, adhesive films 604 and 608 may be bonded to composite sheet 602. Furthermore, by using protective layers 702 and 704, adhesive films 604 and 608 may be prevented from sticking to, and bonding with, press 802.

Referring to FIG. 9, during a fourth step, laminate 720 may be cut into a plate-like shape. In some embodiments, laminate 720 may be cut using known methods in the art for cutting through composite materials. Examples of methods for cutting composite materials include, but are not limited to, sawing, drilling, laser cutting or other methods of cutting composite materials. In this preferred embodiment, composite plate 900 may be stamped from laminate 720 using a die with a predetermined shape.

Although the current embodiment includes methods of manufacturing a single composite plate, in other embodiments, more than one composite plate can be manufactured from a single composite sheet. For example, in some other embodiments a large composite sheet may be used for making multiple composite plates. Following the formation of a single laminate, including adhesive layers and protective layers, multiple composite plates could be cut from the same laminate. Such provisions could reduce the manufacturing time for producing composite plates. Additionally, these provisions could be used to reduce waste material by cutting multiple composite plates from a single laminate.

During a fifth step, composite plate 900 may be reformed into a contoured shape, as seen in FIG. 10. In this current embodiment, composite plate 900 may be placed within press 1002. In a preferred embodiment, press 1002 also includes bending die 1004. As composite plate 900 is pressed against bending die 1004, composite plate 900 preferably takes on an arch-like shape. This shape is preferable for a composite plate that may be associated with an arch portion of an article of footwear.

In the current embodiment, composite plate 900 is cut and bent during two different steps. In other embodiments, however, a composite plate may be cut and bent, or otherwise reshaped, during the same step. In these cases, a single press could be used to cut and bend the composite plate simultaneously. In still other embodiments, the composite plate could be bent first and then cut.

Although the current embodiment includes provisions for bending a composite plate into an arch-like shape, in other embodiments a composite plate could be bent, or otherwise reshaped, into different shapes as well. Generally, a composite plate may be bent into any shape using a press with different types of bending dies. In still other embodiments, a composite plate could be bent using other tools as well.

During a sixth step, prior to associating composite plate 900 with one or more components of a sole, one or more protective layers may be removed, as seen in FIG. 11. In this embodiment, second protective layer 704 may be peeled away from second side 812 of laminate 720. Once second protective layer 704 has been removed, second adhesive film 608 may be exposed at second side 812. With this arrangement, second adhesive film 608 may be configured to attach to a component of the sole.

Preferably, a composite plate may be associated with an outer member once the protective layer has been removed from a lower portion of the composite plate. In some embodiments, the composite plate may be associated with a pre-formed outer member. In other embodiments, the composite plate may be associated with a mold that is used to make an outer member. In a preferred embodiment, the composite plate may be associated with an injection mold.

During a seventh step, seen in FIG. 12, composite plate 900 may be associated with injection mold 1200. In this embodiment, composite plate 900 may be associated with top side 1202 of injection mold 1200. As molding 1204 is injected at intake port 1206, cavity 1208 may be filled. As cavity 1208 is filled, molding 1204 may be disposed against second adhesive film 608. In a preferred embodiment, as molding 1204 is cooled and hardens, molding 1204 may bond with second adhesive film 608.

At this point, molding 1204 has hardened to form outer member 1320, as seen in FIG. 13. As seen in this Figure, composite plate 900 has been partially embedded within, and fixedly attached to, outer member 1320. In this embodiment, composite plate 900 may slightly raised with respect inner portion 1324 of outer member 1320. In other embodiments, composite plate 900 may be substantially flush with respect to inner portion 1324.

During an eighth step, outer member 1320 may be associated with, and applied to, lower portion 1381 of midsole 1322. In some embodiments, first protective layer 702 may be removed from composite plate 900. This allows first adhesive film 604 to be exposed. Additionally, inner portion 1324 of outer member 1320 may be prepared to attach to midsole 1322. In some cases, adhesive 1330 may be applied to inner portion 1324, forming adhesive layer 1321. In other cases, a solvent and/or primer may also be applied to inner portion 1324 prior to applying an adhesive.

It should be understood that during this step, solvents, primers and/or adhesives may be applied to composite plate 900 as well. However, these additional provisions are not necessary to fixedly attach composite plate 900 to midsole 1322. Instead, first adhesive film 604 is configured to bond composite plate 900 to midsole 1322 without the use of any other additional provisions.

In some embodiments, a midsole may include provisions for receiving a composite plate. In the current embodiment, midsole 1322 may include recess 1350. In a preferred embodiment, recess 1350 is shaped like, and configured to receive, a portion of composite plate 900 that may be disposed above inner portion 1324.

FIGS. 14-15 are a preferred embodiment of assembled sole 1450 that comprises outer member 1320, midsole 1322 and composite plate 900. In this embodiment, outer member 1320 may be configured to contact a ground surface. Additionally, midsole 1322 may be disposed adjacent to a bottom portion of an upper.

In some embodiments, composite plate 900 may be sandwiched between midsole 1322 and outer member 1320. In this embodiment, composite plate 900 may be attached to midsole 1322 via first adhesive film 604. In particular, first side 605 of first adhesive film 604 may be associated with top portion 606 of composite plate 900, while second side 603 of first adhesive film 604 may be associated with lower portion 1381 of midsole 1322. Likewise, composite plate 900 may be attached to outer member 1320 via second adhesive film 608. In particular, first side 609 of second adhesive film 608 may be associated with bottom portion 610 of composite plate 900, while second side 611 of second adhesive film 608 may be associated with inner portion 1324 of outer member 1320. Furthermore, in some embodiments, midsole 1322 may be further bonded directly to outer member 1320 via adhesive layer 1550.

Preferably, an outer member may include provisions to increase the aesthetic appeal of an article of footwear. In some embodiments, the outer member may be translucent. In some cases, the inner portion of the outer member may be painted or otherwise decorated with designs that are visible on the outer portion of the outer member. In other cases, the midsole may be painted or otherwise decorated, and portions of these designs may be visible through the outer member. This arrangement may help prevent the designs from degrading, which may occur if the designs are applied to an outer portion of the outer member.

FIG. 16 is a top down view of a generic embodiment of inner portion 1301 of outer member 1300. Inner portion 1301 is configured to engage a midsole or an insole and is the portion of outer member 1300 disclosed closest to a foot during use of the associated article of footwear. In this embodiment, outer member 1300 includes composite plate 1310. Generally, composite plate 1310 is optional and may not be included in other embodiments.

Outer member 1300 may be made of a translucent or generally transparent material. In some embodiments, a logo or other design may be applied to inner portion 1301 of outer member 1300. In this embodiment, first indicia 1302 has been applied to forefoot region 1304 of inner portion 1301. Additionally, in this embodiment, second indicia 1306 has been applied to outer peripheral region 1308 of inner portion 1301. In some cases, indicia 1302 and 1306 may be applied to inner portion 1301 using paint. In other cases, indicia 1302 and 1306 may be applied to inner portion 1301 using other methods of imprinting, including markers, stamps, etching or other kinds of methods. Generally, any method of applying an indicia may be used.

In this preferred embodiment, indicia 1302 and 1306 are logos. However, in other embodiments, any kind of indicia may be used. Examples of different types of indicia that may be used include, but are not limited to shapes, names, numbers, abstract designs, images as well as other types of indicia. Furthermore, while indicia 1302 and 1306 are disposed on forefoot region 1304 and peripheral region 1308, in other embodiments various kinds of indicia could be applied to any region of inner portion 1301.

Referring to FIG. 17, indicia 1302 and 1306 are preferably visible through outer portion 1402 of outer member 1300. Using this preferred configuration, indicia 1302 and 1306 may be visible along the bottom of an article of footwear. However, because indicia 1302 and 1306 are disposed on inner portion 1301 rather than outer portion 1402, indicia 1302 and 1306 may be protected from peeling or being rubbed off during contact with the ground. In other words, indicia 1302 and 1306 may be protected by outer member 1300.

In some embodiments, an outer member may include raised side walls that are also transparent. In these embodiments, indicia of some kind could be displayed on the side wall. This arrangement would allow the indicia to remain visible after a treaded layer has been applied to the bottom of the outer member.

FIG. 18 is an assembled side view of a preferred embodiment of article of footwear 1500. In this embodiment, article of footwear 1500 includes upper 1512, outer member 1508 and treaded layer 1520. Article of footwear 1500 may also include a midsole that is disposed between outer member 1508 and upper 1512. In some cases, side wall portion 1504 of outer member 1508 may be exposed above treaded layer 1520 and below upper 1512.

In this embodiment, third indicia 1506 is visible at side wall portion 1504. In some cases, third indicia 1506 may be applied to the inner portion (see FIG. 16) of outer member 1508 at side wall portion 1504 using paint or another technique such as those that were discussed with respect to FIG. 16. In other cases, third indicia 1506 may be applied to a side of a midsole, which is disposed behind side wall portion 1504.

In the current embodiment, third indicia 1506 is a logo. In other embodiments, third indicia 1506 could be any design, including the types of designs discussed in the previous embodiment. Furthermore, while third indicia 1506 is disposed on side wall portion 1504 in the current embodiment, in other embodiments, third indicia 1506 could be disposed on any visible portion of outer member 1508.

While various embodiments of the invention have been described, the description is intended to be exemplary, rather than limiting and it will be apparent to those of ordinary skill in the art that many more embodiments and implementations are possible that are within the scope of the invention. Accordingly, the invention is not to be restricted except in light of the attached claims and their equivalents. Also, various modifications and changes may be made within the scope of the attached claims. 

The invention claimed is:
 1. A method of making a sole for an article of footwear, comprising: manufacturing a composite plate by forming a laminate by bonding a first side of a composite-plate-to-midsole adhesive to a first side of a composite sheet, wherein the composite plate is disposed between an outer member and a midsole, the outer member having an inner portion and the midsole having a lower portion facing the inner portion of the outer member, and wherein the composite plate covers a first portion of the inner portion of the outer member, leaving a remaining second portion of the inner portion of the outer member and further wherein the composite plate covers a first portion of the lower portion of the midsole, leaving a remaining second portion of the lower portion of the midsole; attaching the first portion of the lower portion of the midsole to the composite plate via the composite-plate-to-midsole adhesive; applying a midsole-to-outer-member adhesive between the remaining second portion of the lower portion of the midsole and the remaining second portion of the inner portion of the outer member; and attaching the remaining second portion of the lower portion of the midsole and the remaining second portion of the inner portion of the outer member via the midsole-to-outer-member adhesive, wherein the composite plate has an outer perimeter and the outer perimeter is located entirely within an arch portion, and further wherein the composite plate has a contoured shape having a shape of the arch portion by having a first flat portion, an arched second portion, and a third flat portion.
 2. The method according to claim 1, wherein the composite plate comprises pre-peg woven sheets of carbon fibers.
 3. The method according to claim 1, further comprising: applying a composite-plate-to-outer-member adhesive disposed between the composite plate and the first portion of the inner portion of the outer member; and attaching the composite plate and the first portion of the inner portion of the outer member via the composite-plate-to-outer-member adhesive.
 4. The method according to claim 3, wherein the composite-plate-to-outer-member adhesive comprises an adhesive film.
 5. The method according to claim 3, wherein the composite-plate-to-midsole adhesive comprises: a film having a first side facing the composite plate and a second side opposite to the first side, an adhesive disposed on the first side, and an adhesive disposed on the second side, wherein the midsole-to-outer-member adhesive is used in conjunction with a solvent.
 6. The method according to claim 5, wherein the composite-plate-to-midsole adhesive is an acrylic based adhesive film.
 7. The method according to claim 5, wherein the midsole-to-outer-member adhesive further comprises a primer applied to the first portion of the inner portion of the outer member.
 8. The method according to claim 3, wherein the composite-plate-to-outer-member adhesive comprises a double sided acrylic based adhesive film and the midsole-to-outer-member adhesive is used in conjunction with a solvent.
 9. The method according to claim 1, wherein the lower portion of the midsole defines a recess shaped and configured to receive a portion of the composite plate protruding above the remaining second portion of the inner portion of the outer member; and wherein the composite-plate-to-midsole adhesive is discontinuous with the midsole-to-outer-member adhesive.
 10. The method according to claim 4, wherein the inner portion of the outer member defines a recess shaped and configured to receive a portion of the composite plate protruding below the remaining second portion of the lower portion of the midsole; and wherein the composite-plate-to-outer-member adhesive is discontinuous with the midsole-to-outer-member adhesive.
 11. The method according to claim 4, wherein the composite-plate-to-midsole adhesive and the composite-plate-to-outer-member adhesive are disposed on horizontal planes different from a horizontal plane on which the midsole-to-outer-member adhesive is disposed.
 12. The method according to claim 1, wherein the composite-plate-to-midsole adhesive continuously bonds the composite plate to the first portion of the lower portion of the midsole across an entirety of a top face of the composite plate.
 13. A method of making a sole for an article of footwear, comprising: manufacturing a composite plate by forming a laminate by applying a first side of a composite-plate-to-midsole adhesive to a first side of a composite sheet, wherein the composite plate is disposed between an outer member and a midsole, wherein the composite plate covers a first portion of an upper portion of the outer member, leaving a remaining second portion of the upper portion of the outer member and further wherein the composite plate covers a first portion of a lower portion of the midsole, leaving a remaining second portion of the lower portion of the midsole; applying a composite-plate-to-outer-member adhesive disposed between the composite plate and the first portion of the upper portion of the outer member; attaching the first portion of the upper portion of the outer member to the composite plate via the composite-plate-to-outer-member adhesive; attaching the first portion of the lower portion of the midsole to the composite plate via the composite-plate-to-midsole adhesive; applying a midsole-to-outer-member adhesive between the remaining second portion of the lower portion of the midsole and the remaining second portion of the upper portion of the outer member; and attaching the remaining second portion of the lower portion of the midsole and the remaining second portion of the upper portion of the outer member via the midsole-to-outer-member adhesive, wherein the composite plate has an outer perimeter, wherein the outer perimeter is located entirely within an arch portion, and wherein the composite plate has a contoured shape having a shape of the arch portion by having a first flat portion, an arched second portion, and a third flat portion.
 14. The method according to claim 13, wherein the composite-plate-to-outer-member adhesive continuously bonds the composite plate to the first portion of the upper portion of the outer member across an entirety of a bottom face of the composite plate; and wherein the composite-plate-to-midsole adhesive continuously bonds the composite plate to the first portion of the lower portion of the midsole across an entirety of a top face of the composite plate.
 15. The method according to claim 13, wherein the composite-plate-to-outer-member adhesive and the composite-plate-to-midsole adhesive each comprises: a film having a first side facing the composite plate and a second side opposite to the first side, an adhesive disposed on the first side, and an adhesive disposed on the second side, wherein the midsole-to-outer-member adhesive comprises is used in conjunction with a solvent.
 16. A method of making a sole for an article of footwear, comprising: manufacturing a composite plate by forming a laminate by bonding a first side of a composite-plate-to-midsole adhesive to a first side of a composite sheet, wherein the composite plate is disposed between an outer member and a midsole, the outer member having an inner portion and the midsole having a lower portion facing the inner portion of the outer member, and wherein the composite plate covers a first portion of the inner portion of the outer member, leaving a remaining second portion of the inner portion of the outer member and further wherein the composite plate covers a first portion of the lower portion of the midsole, leaving a remaining second portion of the lower portion of the midsole; attaching the first portion of the lower portion of the midsole to the composite plate via the composite-plate-to-midsole adhesive; applying a composite-plate-to-outer-member adhesive disposed between the composite plate and the first portion of the inner portion of the outer member; and attaching the composite plate and the first portion of the inner portion of the outer member via the composite-plate-to-outer-member adhesive, wherein the composite-plate-to-outer-member adhesive comprises an adhesive film; applying a midsole-to-outer-member adhesive between the remaining second portion of the lower portion of the midsole and the remaining second portion of the inner portion of the outer member; and attaching the remaining second portion of the lower portion of the midsole and the remaining second portion of the inner portion of the outer member via the midsole-to-outer-member adhesive, wherein the inner portion of the outer member defines a recess shaped and configured to receive a portion of the composite plate protruding below the remaining second portion of the lower portion of the midsole; and wherein the composite-plate-to-outer-member adhesive is discontinuous with the midsole-to-outer-member adhesive.
 17. A method of making a sole for an article of footwear, comprising: manufacturing a composite plate by forming a laminate by bonding a first side of a composite-plate-to-midsole adhesive to a first side of a composite sheet, wherein the composite plate is disposed between an outer member and a midsole, the outer member having an inner portion and the midsole having a lower portion facing the inner portion of the outer member, and wherein the composite plate covers a first portion of the inner portion of the outer member, leaving a remaining second portion of the inner portion of the outer member and further wherein the composite plate covers a first portion of the lower portion of the midsole, leaving a remaining second portion of the lower portion of the midsole; attaching the first portion of the lower portion of the midsole to the composite plate via the composite-plate-to-midsole adhesive; applying a composite-plate-to-outer-member adhesive disposed between the composite plate and the first portion of the inner portion of the outer member; and attaching the composite plate and the first portion of the inner portion of the outer member via the composite-plate-to-outer-member adhesive, wherein the composite-plate-to-outer-member adhesive comprises an adhesive film; applying a midsole-to-outer-member adhesive between the remaining second portion of the lower portion of the midsole and the remaining second portion of the inner portion of the outer member; and attaching the remaining second portion of the lower portion of the midsole and the remaining second portion of the inner portion of the outer member via the midsole-to-outer-member adhesive, wherein the composite-plate-to-midsole adhesive and the composite-plate-to-outer-member adhesive are disposed on horizontal planes different from a horizontal plane on which the midsole-to-outer-member adhesive is disposed. 